"We would have not been able to take this product from development to launch without using Stratasys 3D printing to develop a working prototype - it's as simple as that," Oliver Risse, Floatility's founder
---
Fully-functional 3D printed prototypes produced 50% faster using both FDM and PolyJet 3D printing technologies from Stratasys in comparison to silicon molding

With the objective to 'redefine the modern way of travelling in cities worldwide', the 'e-floater' scooter houses an electric-motor and drives on three wheels, enabling users to stand upright and ride freely without physical exertion. As an 'intelligent' vehicle, the e-floater is also able to communicate to its owner in real time where it is located and the condition it is in.

In order meet the product's launch date of November, Floatility utilized both Stratasys FDM and PolyJet 3D printing technologies throughout the product development phase to create a working prototype. An additional benefit was that this was achieved significantly more cost-effectively than using traditional methods.

"The need to build prototypes that exactly resembled the final product and that would enable us to test everything thoroughly was vital to the successful launch of this product," says Oliver Risse, Floatility's founder. "3D printing was essential in this regard as it allowed the team to physically test the design and concept of e-floater as if it were the final product. This not only sped up the product development cycle, but dramatically reduced our product development costs. We would have not been able to take this product from concept to launch without using Stratasys 3D printing solutions to develop a working prototype - it's as simple as that."

Developing an advanced prototype that accurately resembles the final product

As well as improved time and cost efficiencies, the decision to use multiple Stratasys 3D printing technologies was also based on the capability to combine different materials in one print, which enabled the prototype versions to comprise both soft and hard materials.

This saw the team produce soft components such as the tail- and front lights, wheels and grips on the PolyJet-based Objet500 Connex3 Color Multi-material 3D Printer, while the super-tough components were 3D printed using the mechanically-strong and UV stable, FDM-based, ASA material on the Stratasys Fortus 450 3D Production System.

According to Risse, the less favourable alternative would have been to use silicon molding to create the prototype. "This was not ideal for a number of reasons," he says. "Not only would it have entailed an assembly of up to 20 parts, but the costs would have been significantly higher and the production time would have been double to that achievable with 3D printing."

"The e-floater is a perfect example of how 3D printing enables designers and inventors to turn their concepts into fully-operational products quickly and cost-effectively," concludes Andy Middleton, President, Stratasys, EMEA. "In this case, the blend of both our core 3D printing technologies proved instrumental in bringing another exciting and innovative product to market and, as a company, we're delighted to play a part in helping Floatility - and other start-up businesses like them - bring their ideas to products."

For more than 25 years, Stratasys Ltd. (NASDAQ: SSYS) has been a defining force and dominant player in 3D printing and additive manufacturing - shaping the way things are made. Headquartered in Minneapolis, Minnesota and Rehovot, Israel, the company empowers customers across a broad range of vertical markets by enabling new paradigms for design and manufacturing. The company's solutions provide customers with unmatched design freedom and manufacturing flexibility - reducing time-to-market and lowering development costs, while improving designs and communications. Stratasys subsidiaries include MakerBot and Solidscape and the Stratasys ecosystem includes 3D printers producing prototypes and parts; a wide range of 3D printing materials; parts on-demand via Stratasys Direct Manufacturing; strategic consulting and professional services; and Thingiverse/GrabCAD communities with 5+ million free design components, printable files. With 3,000 employees and 800 granted or pending additive manufacturing patents, Stratasys has received more than 30 technology and leadership awards. Visit us online at: http://www.stratasys.com or http://blog.stratasys.com.

Featured Product

Zaber's X-LRQ-DE Series of linear stages have high stiffness, load, and lifetime capabilities in a compact size. The integrated linear encoder combined with stage calibration provides high accuracy positioning over the full travel of the device. At 36 mm high, these stages are excellent for applications where a low profile is required. The X-LRQ-DE's innovative design allows speeds up to 205 mm/s and loads up to 100 kg. Like all Zaber products, the X-LRQ-DE Series is designed for easy set-up and operation.